Abrading devices

ABSTRACT

An improved abrading material and apparatus for utilizing an abrading drum is provided with the abrading material having nonclogging characteristics as well as improved cutting characteristics.

United States Patent 1191 Bond 1451 Sept. 16, 1975 ABRADING DEVICES [75] Inventor: Herbert M. Bond, Stillwater, Minn.

[73] Assignee: Buckbee-Mears Company, St. Paul,

Minn.

22 Filed: Feb. 4, 1974 21 Appl. No.2 439,295

Related US. Application Data [62] Division of Ser. No. 237,734, March 24, 1972.

52 us. 01. 29/76 R; 51/374 51 B23D 67/08 58 Field 61 Search 29/76 R, 78, 76 B; 51 /309,

[56] References Cited UNITED STATES PATENTS 11/1940 Gutsell 51/374 2,415,308 2/1947 Schulte 51/374 2,675,602 4/1954 Kern 29/76 2,709,879 6/1955 Larson 51/374 2,906,612 9/1959 Anthony et a1. 51/309 3,045,321 7/1962 McDermott 29/78 Primary Examiner-Leonidas Vlachos Attorney, Agent, or F irm-J acobson and Johnson 57 ABSTRACT An improved abrading' material and apparatus for utilizing an abrading drum is provided with the abrading material having non-clogging characteristics as well as improved cutting characteristics.

4 Claims, 8 Drawing Figures PATEN TEE 51975 sum 2 [1F 4 llll ABRADING DEVICES- This is a division of application Ser. No. 237,734,

filed Mar. 24, 1972.

BACKGROUND OF THE INVENTION metallic abrading devices and the non-metallic abrading devices. The non-metallic abrading devices are characterized by the sheet materials commercially known as the sandpapers. The metallic abrading devices are generally used for harder materials and include devices such as rasps, files and thelike. Within this general category of metallic abrading devices there is one particular type which is capable of abrading much in the same manner as the sandpapers yet has considerably greater durability than sandpaper. A typical example of this type isshown in the McDermott U.S. Pat. No. 3,045,321 which is assigned to the same assignee as the present inventionoTypically, the Mc- Dermott type of abrading material is made from metallic sheet material by forming an etchant resist pattern on top of the metallic material. The material in the uncovered portions of the metallic material is then etched away to leave a series'of regular sharp points for use in abrading material away.

Another embodiment of this type is shown in a Davidson U.S. Pat. No. 852,873 in which a knife sharpener is produced by partially undercutting the resist layer to leave a series of regular or elongated undercut edges. Davidson suggests his elongated undercut edges can be used for sharpening knives'and the "like.

While the McDermott and Davidson type of prior art devices have been known for some time, they have not gained wide acceptance because of certain drawbacks such as the clogging of the abrading material during use and the inability of the abrading material to flex and withstand the stress encountered with high speed rotary abrading operations. A cutting tool such as Davidson, which is designed for slow speed operation, plugs up Another aspect of my invention comprises an improved'structural configuration of a sanding drum for high speed sanding operation.

Another aspect of my invention comprises a high speed sanding drum flexible enough to conform to arcuate surfaces without being destroyed by centrifugal forces.

Still another aspect of my invention comprises an apparatus for utilizing my abrading device.

Another aspect of my invention includes safety features on the apparatus to prevent the abrading device SUMMARY OF THE INVENTION Briefly, the present invention comprises a metallic abrading material having improved cutting characteristics, an improved structural design to enable the abrading materials to be used in a high speed abrading drum,

. a metallic abrading drum capable of abrading a surface quitev readily if used in high speedoperation with a soft to rupture the seam on the drum thus causing the drum to fly aparLThus, briefly, one of the aspects of my invention comprises an improvement in forming an abrading cylinder or an abrading drum out of sheet material.

Another aspect of my invention comprises. improvements in abrading characteristics of metallicabrading materials.

with a curvature thereon and a machine for supporting and holding my improved abrading drum.

DESCRIPTION OF THE DRAWINGS FIG. 1 is a perspective view of my metallic abrading drum which is suitable for high speed sanding;

FIG. 2 is an enlarged portion of the abrading drum which reveals details of the seam when the abrading material is welded together.

FIG. 3 is an enlarged view showing the physical appearance of the various cutting teeth on my abrading material; v

, FIG. 4 is a cross-sectional view taken along the lines 3-3 of FIG. 3;

FIG. 5 is an end view of a mandrel for supporting my abrading drum;

FIG. 6 is a cut away view showing an alternateembodiment of a mandrel for supporting an abrading drum FIG. 7 is a front elevation view of a machine for utilizing an abrading drum; and

FIG. 8 is a side elevation view of a machine for utilizing an abrading drum.

DESCRIPTION OF THE PREFERRED EMBODIMENT Referring to FIGS. 1, 2 and 3, reference numeral 10 generally designates my improved abrading drum. Abrading drum 10 was formed from a sheet of metallic material 11 by utilization of etching techniques.

Briefly, etchant resist is placed over selected areas of the material to prevent various regions from being attacked by an etchant.

FIG. 3 shows the various sizes and shapes of the protected areas which are spaced randomly throughout the material. These protected areas will be referred to as teeth. After subjecting the material to an etchant, the resist is removed thus leaving the numerous metallic projections or teeth having a partially undercut appearance as shown in FIG. 4. It is the utilization of teeth of The flat metallic sheet can be formed into an abrading drum by forming a butt joint such as shown in FIG. 2. Typically, the edgesof the sheet are ground to assure they will abutt together continuously. Next, the edges are held together while the weld is formed with an electron beam. In order to produce a strong butt weld by electron beam welding, it is preferred to have the thickness of the metallic sheet at the seam less than 0.004 of an inch for a 6 inch diameter drum.

Referring-to FIG. 3, there is shown an enlarged view of the cutting protrusion or teeth 12 on the metallic abrading material 11. Note, teeth 12 are characterized by different sizes and shapes. The specifics as to how to etch the metallic material may be found in applicants prior art McDermott US. Pat. No. 3,045,321 which describes the forming of the abrading material by the utilization of etchant resist. Applicants present invention utilizes etchant resist in a similar manner to form metallic abrading teeth. However, there are several differences between abrading material in the present invention and the abrading material of applicants prior art patent which enable the present abrading material to provide improved abrading qualities. For ex-- ample, the present invention does not utilize any sharp points but instead utilizes irregular shaped teeth with flat tops that are partially undercut to form multiple cutting edges around the tops of the teeth. Also, the cutting teeth have irregular sizes and shapes with random distribution of the teeth; furthermore, approximately 90 percent of the sheet of abrading material contains no cutting teeth. These features have been found to provide uniform cutting edges that smoothly and rapidly cut away material. Typically, my drum is made from a material such as stainless steel. However, other metallic materials are also suitable.

FIG. 4 shows an enlarged sectional view indicating the'width (w) of the teeth and the height (/1) of the teeth. Typically, the width (w) ranges from 0.005 inches to 0.006 inches and the height (/1) ranges from 0.0040 inches to 0.0045 inches. The thickness of the base material is designated by t and ranges from 0.0020 inches to 0.0015 inches, However, in order to produce a high speed abrading drum the thickness t should be less than 0.002 inches for a drum approximately 6 inches in diameter. Thus, the ratio of the abrading drum diameter to the thickness should be in the order of about 3,000 to l for a 6 inch diameter drum. With these relative dimensions, it has been found that the abrading drum can withstand severe use in speeds up to 900 RPM without rupturing the welded seam. However, with abrading material having a thickness larger than 0.002 inch, the formation of the'metallic abrading drum becomes difficult and hazardous because the cen-" silient material 35,. is sufficientlysoft so as to expand radially outward under centrifugal forces or compress radially inward in response to abrading a curved surface. Typically, drum 10 is slightly larger than the mandrel so that' the drum can be easily slipped over the mandrel. Typically, it is preferred to have at least a diametricalclearance on the order of about 0.010 of an inch. This clearance allows one to slip the drum over the mandrel and provide cushioning to allow the drum to conform to the curved surface.

One starts the abrading unit by rotating the mandrel 30 which causes elastomer material to be forced radially outward by centrifugal forcefThis causes material 35 to frictionally engage the interior surface of the abrading drum 10. This feature has been found to provide a cushion for the abradingdrum 10 as well as sufficient positive contact to propel the abrading drum at the same speed as the mandrel. With the mandrel constructed in this manner, the abrading drum can conform to the surface of the material to be abraded as the elastomer material allows for inward flexing of the abrading drum when force is applied radially inward. Thus, a curved surface can be abraded on drum 10.

In order to provide the desired conformity of the drum to the surface of the material to be abraded, it is preferred to use material having a durometer reading which ranges from about 18 to 22 onscale A as defined by ASTM standard'ASTMD 2240-68. However, this is only preferred for use in abrading material such as shoe soles. Other ranges are alsqsuitable for abrading differ-' ently curved surfaces or non-curved surfaces.

Referring to FIG. 6, there is shown another embodiment of my invention in which I also provide an abradengage the opposite end of abrading drum 10. In thisembodiment, the frictional force for drivingdrum 10 thus is provided at the rims or edges that engage the end of abrading drum 10 rather than along the entire surface of the drum. Located between abrading material 10 and mandrel 20 is an air gap designated by a. The air gap is typically one-fourth to one-eighth of an inch and allows for radial inward flexing of drum 10 in order to allow the drum to conform to the curvature of the material to be abraded on Referring to FIG. 7 and FIG. 8, reference numeral 40 generally designates my improved abrading apparatus for use with my abrading drum. Abrading apparatus 40 comprises a stand 41, a motor 42 (partially shown )and a drive shaft assembly 43 for powering abrading drum 10 through a suitable member such as a V belt. Abrading drum 10 is located over the mandrel which is driven by a shaft 44 which connects to drive shaft assembly 43.

Referring to FIG. 8, end view of apparatus 40 shows the removable mandrel housing 48. Mandrel housing 48 has a bearing 45 for supporting shaft 44. Bearing 45 I;

is mounted on member 48 by bolts 49. Mandrel housing 48 is held in alignment with respect to frame 41 by a pair of dowel or aligning pins 49 and a bolt 50 that passes through matched openings in housing 48. A wing nut 50 holds the mandrel housing end against frame 41. This wing nut 50 can be tightened or loosened to allow one to remove housing 48. The removal of housing 48 allows one to slip the bearing 45 off of shaft 44 thus allowing one to place the abrading drum over the mandrel (not shown) on apparatus 40.

Referring now to FIGS. 7 and 8, located over each end of the abrading drum and attached to apparatus 40 is a safety member 52 and a safety member 53. Safety member 52 and 53 are looped metal sections that cover the outermost ends of abrading drum 10. These sections will prevent the drum from flying off and hit an operator should a tear develop in the drum. A safety cover 54 also joins safety members 52 and 53 in the form of a shield covering the top half of drum 10 to insure that any torn or damaged abrading drum would be directed downward away from the operator.

The invention also includes a device for removing material that may be adhering to the abrading drums through the utilization of a brush 60 which is forced against abrading drum 10 by downward motion on a foot pedal 61. As foot pedal 61 is pivotally mounted in leg 62 of apparatus 41, it causes brush 60 to engage the rotating abrading drum. The forcing of brush into contact with abrading drum 10 removes any material which is loosely held on the abrading drum.

I claim:

1. An abrading apparatus including a member for supporting a rotatable mandrel, a mandrel rotatably mounted on said member, means for rotating said mandrel, said mandrel operable for receiving an abrading drum of diameter D said mandrel having diameter D which is less than said diameter D to thereby provide clearance between said abrading drum and said mandrel to thereby allow said abrading drum to flex radially inward in response to a radial inward force on said abrading drum, said abrading drum having an elastomer surface located on the ends of said abrading drum that is sufficiently soft to expand radially outward under centrifugal force to thereby frictionally engage the inside of said abrading drum and an air gap between said ends of said abrasive drum that is sufficiently large so as to allow radial inward flexing of said drum in response to a radial inward force to said drum without producing engagement of said abrading drum with said elastomer surface on said abrading drum.

2. The invention of claim 1 wherein there is a diametrical clearance between said drum and said diameter of said mandrel on the order of about .010 of ,an inch.

3. The invention of claim 1 wherein said abrading drum comprises a metallic base material having a plurality of metallic cutting teeth projecting therefrom, said teeth characterized by irregular sizes and shapes, said plurality of teeth spaced randomly throughout said material, said teeth further characterized by covering less than 10% of the area of said metallic base material.

4. The invention of claim 3 wherein said elastomer has a durometer ready which ranges from about 18 to 20 on scale A as defined by ASTM standard ASTMD 2240-68.

UNITED STATES PATENT OFFICE CERTIFICATE OF CORRECTION Patent No. 3 905, 080 V Dated 9-16-1975 Invent0r(s) Herbert M. Bond It is certified that error appears in the aboveidentified patent and that said Letters Patent are hereby corrected as shown below:

In C01. 6, line 5, abrading drum" (second occurrence) should be mandre1- In Col. 6, line 6, "abra'ding drum" should be -mandre1- In C01. 6, line 10, "abrasive should be --abrading In C010 6, line 14, "abrading drum" should be --mandre1- Signed and Scaled this Fourteenth Day of December 1976 [SEAL] Arrest" RUTH c. MASON c. MARSHALL DANN Arresting Officer Commissioner of Parents and Trademarks 

1. An abrading apparatus including a member for supporting a rotatable mandrel, a mandrel rotatably mounted on said member, means for rotating said mandrel, said mandrel operable for receiving an abrading drum of diameter D1, said mandrel having diameter D2 which is less than said diameter D1 to thereby provide clearance between said abrading drum and said mandrel to thereby allow said abrading drum to flex radially inward in response to a radial inward force on said abrading drum, said abrading drum having an elastomer surface located on the ends of said abrading drum that is sufficiently soft to expand radially outward under centrifugal force to thereby frictionally engage the inside of said abrading drum and an air gap between said ends of said abrasive drum that is sufficiently large so as to allow radial inward flexing of said drum in response to a radial inward force to said drum without producing engagement of said abrading drum with said elastomer surface on said abrading drum.
 2. The invention of claim 1 wherein there is a diametrical clearance between said drum and said diameter of said mandrel on the order of about .010 of an inch.
 3. The invention of claim 1 wherein said abrading drum comprises a metallic base material having a plurality of metallic cutting teeth projecting therefrom, said teeth characterized by irregular sizes and shapes, said plurality of teeth spaced randomly throughout said material, said teeth further characterized by covering less than 10% of the area of said metallic base material.
 4. The invention of claim 3 wherein said elastomer has a durometer ready which ranges from about 18 to 20 on scale A as defined by ASTM standard ASTMD 2240-68. 